/*
 * Copyright (c) 2011-2015 The Linux Foundation. All rights reserved.
 *
 * Previously licensed under the ISC license by Qualcomm Atheros, Inc.
 *
 *
 * Permission to use, copy, modify, and/or distribute this software for
 * any purpose with or without fee is hereby granted, provided that the
 * above copyright notice and this permission notice appear in all
 * copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
 * PERFORMANCE OF THIS SOFTWARE.
 */

/*
 * This file was originally distributed by Qualcomm Atheros, Inc.
 * under proprietary terms before Copyright ownership was assigned
 * to the Linux Foundation.
 */

/******************************************************************************

*

* Name:  pmcApi.h

*

* Description: Power Management Control (PMC) API definitions.

*

******************************************************************************/


#ifndef __PMC_API_H__

#define __PMC_API_H__

/*
 * This timer value determines the default periodicity at which BMPS retries
 * will happen; this default value is overwritten typically by OS specific
 * registry/INI values.
 */
#define BMPS_TRAFFIC_TIMER_DEFAULT 5000  //unit = ms
#define DHCP_REMAIN_POWER_ACTIVE_THRESHOLD 12 // (12 * 5) sec = 60 seconds = 1 min

//This timer value is used when starting the timer right after association. This value
//should be large enough to allow the auth, DHCP handshake to complete
#define BMPS_TRAFFIC_TIMER_ALLOW_SECURITY_DHCP 8000  //unit = ms

#define PMC_IS_CHIP_ACCESSIBLE(pmcState) ( (IMPS != (pmcState)) && (REQUEST_IMPS != (pmcState)) && \
       (STANDBY != (pmcState)) && (REQUEST_STANDBY != (pmcState)) )



/* Power events that are signaled to PMC. */

typedef enum ePmcPowerEvent

{

    ePMC_SYSTEM_HIBERNATE,  /* host is entering hibernation */

    ePMC_SYSTEM_RESUME,  /* host is resuming after hibernation */

    ePMC_HW_WLAN_SWITCH_OFF,  /* Hardware WLAN Switch has been turned off */

    ePMC_HW_WLAN_SWITCH_ON,  /* Hardware WLAN Switch has been turned on */

    ePMC_SW_WLAN_SWITCH_OFF,  /* Software WLAN Switch has been turned off */

    ePMC_SW_WLAN_SWITCH_ON,  /* Software WLAN Switch has been turned on */

    ePMC_BATTERY_OPERATION,  /* host is now operating on battery power */

    ePMC_AC_OPERATION  /* host is now operating on AC power */

} tPmcPowerEvent;




/* Power saving modes. */

typedef enum ePmcPowerSavingMode

{

    ePMC_IDLE_MODE_POWER_SAVE,  /* Idle Mode Power Save (IMPS) */

    ePMC_BEACON_MODE_POWER_SAVE,  /* Beacon Mode Power Save (BMPS) */

    ePMC_SPATIAL_MULTIPLEX_POWER_SAVE,  /* Spatial Multiplexing Power Save (SMPS) */

    ePMC_UAPSD_MODE_POWER_SAVE,  /* Unscheduled Automatic Power Save Delivery Mode */

    ePMC_STANDBY_MODE_POWER_SAVE,  /* Standby Power Save Mode */

    ePMC_WOWL_MODE_POWER_SAVE  /* Wake-on-Wireless LAN Power Save Mode */

} tPmcPowerSavingMode;




/* Switch states. */

typedef enum ePmcSwitchState

{

    ePMC_SWITCH_OFF,  /* switch off */

    ePMC_SWITCH_ON  /* switch on */

} tPmcSwitchState;




/* Device power states. */

typedef enum ePmcPowerState

{

    ePMC_FULL_POWER,  /* full power */

    ePMC_LOW_POWER,  /* low power */

} tPmcPowerState;



/* PMC states. */

typedef enum ePmcState

{

    STOPPED, /* PMC is stopped */

    FULL_POWER, /* full power */

    LOW_POWER, /* low power */

    REQUEST_IMPS,  /* requesting IMPS */

    IMPS,  /* in IMPS */

    REQUEST_BMPS,  /* requesting BMPS */

    BMPS,  /* in BMPS */

    REQUEST_FULL_POWER,  /* requesting full power */

    REQUEST_START_UAPSD,  /* requesting Start UAPSD */

    REQUEST_STOP_UAPSD,  /* requesting Stop UAPSD */

    UAPSD,           /* in UAPSD */

    REQUEST_STANDBY,  /* requesting standby mode */

    STANDBY,  /* in standby mode */

    REQUEST_ENTER_WOWL, /* requesting enter WOWL */

    REQUEST_EXIT_WOWL,  /* requesting exit WOWL */

    WOWL                /* Chip in WOWL mode */

} tPmcState;


/* Which beacons should be forwarded to the host. */

typedef enum ePmcBeaconsToForward

{

    ePMC_NO_BEACONS,  /* none */

    ePMC_BEACONS_WITH_TIM_SET,  /* with TIM set */

    ePMC_BEACONS_WITH_DTIM_SET,  /* with DTIM set */

    ePMC_NTH_BEACON,  /* every Nth beacon */

    ePMC_ALL_BEACONS  /* all beacons */

} tPmcBeaconsToForward;




/* The Spatial Multiplexing Power Save modes. */

typedef enum ePmcSmpsMode

{

    ePMC_DYNAMIC_SMPS,  /* dynamic SMPS */

    ePMC_STATIC_SMPS  /* static SMPS */

} tPmcSmpsMode;




/* Configuration parameters for Idle Mode Power Save (IMPS). */

typedef struct sPmcImpsConfigParams

{

    tANI_BOOLEAN enterOnAc;  /* FALSE if device should enter IMPS only when host operating

                                on battery power, TRUE if device should enter always */

} tPmcImpsConfigParams, *tpPmcImpsConfigParams;




/* Configuration parameters for Beacon Mode Power Save (BMPS). */

typedef struct sPmcBmpsConfigParams

{

    tANI_BOOLEAN enterOnAc;  /* FALSE if device should enter BMPS only when host operating on

                                battery power, TRUE if device should enter always */

    tANI_U32 txThreshold;  /* transmit rate under which BMPS should be entered (frames / traffic measurement period) */

    tANI_U32 rxThreshold;  /* receive rate under which BMPS should be entered (frames / traffic measurement period) */

    tANI_U32 trafficMeasurePeriod; /* period for BMPS traffic measurement (milliseconds) */

    tANI_U32 bmpsPeriod;  /* amount of time in low power (beacon intervals) */

    tPmcBeaconsToForward forwardBeacons;  /* which beacons should be forwarded to the host */

    tANI_U32 valueOfN;  /* the value of N when forwardBeacons is set to ePMC_NTH_BEACON */

    tANI_BOOLEAN usePsPoll;  /* TRUE if PS-POLL should be used to retrieve frames from AP, FALSE if a

                                null data frame with the PM bit reset should be used */

    tANI_BOOLEAN setPmOnLastFrame; /* TRUE to keep device in BMPS as much as possible, FALSE otherwise, TRUE means:

                                      1) PM bit should be set on last pending transmit data frame

                                      2) null frame with PM bit set should be transmitted after last pending receive

                                         frame has been processed */

    tANI_BOOLEAN enableBeaconEarlyTermination; /* if TRUE, BET feature in RIVA
                                      will be enabled, FALSE otherwise, TRUE means:
                                      RXP will read the beacon header for the
                                      TIM bit & discard the rest if set to 0,
                                      while in BMPS              */
    tANI_U8      bcnEarlyTermWakeInterval; /* This specifies how often in terms
                                      of LI we will disable BET in order to sync
                                      up TSF*/

} tPmcBmpsConfigParams, *tpPmcBmpsConfigParams;




/* Configuration parameters for Spatial Multiplexing Power Save (SMPS). */

typedef struct sPmcSmpsConfigParams

{

    tPmcSmpsMode mode;  /* mode to use */

    tANI_BOOLEAN enterOnAc;  /* FALSE if device should enter SMPS only when host operating on

                                battery power, TRUE if device should enter always */

} tPmcSmpsConfigParams, *tpPmcSmpsConfigParams;


/* Routine definitions. */

extern eHalStatus pmcOpen (tHalHandle hHal);

extern eHalStatus pmcStart (tHalHandle hHal);

extern eHalStatus pmcStop (tHalHandle hHal);

extern eHalStatus pmcClose (tHalHandle hHal );

extern eHalStatus pmcSetConfigPowerSave (tHalHandle hHal, tPmcPowerSavingMode psMode, void *pConfigParams);

extern eHalStatus pmcGetConfigPowerSave (tHalHandle hHal, tPmcPowerSavingMode psMode, void *pConfigParams);

extern eHalStatus pmcEnablePowerSave (tHalHandle hHal, tPmcPowerSavingMode psMode);

extern eHalStatus pmcStartAutoBmpsTimer (tHalHandle hHal);

extern eHalStatus pmcStopAutoBmpsTimer (tHalHandle hHal);

extern eHalStatus pmcDisablePowerSave (tHalHandle hHal, tPmcPowerSavingMode psMode);

extern eHalStatus pmcQueryPowerState (tHalHandle hHal, tPmcPowerState *pPowerState, tPmcSwitchState *pHwWlanSwitchState,

                                      tPmcSwitchState *pSwWlanSwitchState);

extern tANI_BOOLEAN pmcIsPowerSaveEnabled (tHalHandle hHal, tPmcPowerSavingMode psMode);

extern eHalStatus pmcRequestFullPower (tHalHandle hHal, void (*callbackRoutine) (void *callbackContext, eHalStatus status),

                                       void *callbackContext, tRequestFullPowerReason fullPowerReason);

extern eHalStatus pmcRequestImps (tHalHandle hHal, tANI_U32 impsPeriod,

                                  void (*callbackRoutine) (void *callbackContext, eHalStatus status),

                                  void *callbackContext);

extern eHalStatus pmcRegisterPowerSaveCheck (tHalHandle hHal, tANI_BOOLEAN (*checkRoutine) (void *checkContext),

                                             void *checkContext);

extern eHalStatus pmcDeregisterPowerSaveCheck (tHalHandle hHal, tANI_BOOLEAN (*checkRoutine) (void *checkContext));

extern void pmcMessageProcessor (tHalHandle hHal, tSirSmeRsp *pMsg);
extern void pmcResetImpsFailStatus (tHalHandle hHal);
extern v_BOOL_t IsPmcImpsReqFailed (tHalHandle hHal);

extern eHalStatus pmcRequestBmps (

   tHalHandle hHal,

   void (*callbackRoutine) (void *callbackContext, eHalStatus status),

   void *callbackContext);


extern eHalStatus pmcStartUapsd (

   tHalHandle hHal,

   void (*callbackRoutine) (void *callbackContext, eHalStatus status),

   void *callbackContext);


extern eHalStatus pmcStopUapsd (tHalHandle hHal);


extern eHalStatus pmcRequestStandby (

   tHalHandle hHal,

   void (*callbackRoutine) (void *callbackContext, eHalStatus status),

   void *callbackContext);


extern eHalStatus pmcRegisterDeviceStateUpdateInd (tHalHandle hHal,

   void (*callbackRoutine) (void *callbackContext, tPmcState pmcState),

   void *callbackContext);


extern eHalStatus pmcDeregisterDeviceStateUpdateInd (tHalHandle hHal,

   void (*callbackRoutine) (void *callbackContext, tPmcState pmcState));


extern eHalStatus pmcReady(tHalHandle hHal);


void pmcDumpInit(tHalHandle hHal);


extern eHalStatus pmcWowlAddBcastPattern (
   tHalHandle hHal,
   tpSirWowlAddBcastPtrn pattern,
   tANI_U8  sessionId);


extern eHalStatus pmcWowlDelBcastPattern (
   tHalHandle hHal,
   tpSirWowlDelBcastPtrn pattern,
   tANI_U8 sessionId);


extern eHalStatus pmcEnterWowl (

    tHalHandle hHal,

    void (*enterWowlCallbackRoutine) (void *callbackContext, eHalStatus status),

    void *enterWowlCallbackContext,
#ifdef WLAN_WAKEUP_EVENTS
    void (*wakeReasonIndCB) (void *callbackContext, tpSirWakeReasonInd pWakeReasonInd),

    void *wakeReasonIndCBContext,
#endif // WLAN_WAKEUP_EVENTS
    tpSirSmeWowlEnterParams wowlEnterParams, tANI_U8 sessionId);

extern eHalStatus pmcExitWowl (tHalHandle hHal,
                               tpSirSmeWowlExitParams wowlExitParams);

extern eHalStatus pmcSetHostOffload (tHalHandle hHal, tpSirHostOffloadReq pRequest,
                                          tANI_U8 sessionId);

/* ---------------------------------------------------------------------------
    \fn pmcSetKeepAlive
    \brief  Set the Keep Alive feature.
    \param  hHal - The handle returned by macOpen.
    \param  pRequest - Pointer to the Keep Alive.
    \return eHalStatus
            eHAL_STATUS_FAILURE  Cannot set the keep alive.
            eHAL_STATUS_SUCCESS  Request accepted.
  ---------------------------------------------------------------------------*/
extern eHalStatus pmcSetKeepAlive (tHalHandle hHal, tpSirKeepAliveReq pRequest, tANI_U8 sessionId);

extern tANI_BOOLEAN pmcValidateConnectState( tHalHandle hHal );

extern tANI_BOOLEAN pmcAllowImps( tHalHandle hHal );


#ifdef FEATURE_WLAN_SCAN_PNO
/*Pref netw found Cb declaration*/
typedef void(*preferredNetworkFoundIndCallback)(void *callbackContext, tpSirPrefNetworkFoundInd pPrefNetworkFoundInd);

extern eHalStatus pmcSetPreferredNetworkList(tHalHandle hHal, tpSirPNOScanReq pRequest, tANI_U8 sessionId, preferredNetworkFoundIndCallback callbackRoutine, void *callbackContext);
#endif // FEATURE_WLAN_SCAN_PNO

#ifdef WLAN_FEATURE_PACKET_FILTERING
// Packet Coalescing Filter Match Count Callback declaration
typedef void(*FilterMatchCountCallback)(void *callbackContext,
                                        tpSirRcvFltPktMatchRsp pRcvFltPktMatchRsp);
extern eHalStatus pmcGetFilterMatchCount(tHalHandle hHal, FilterMatchCountCallback callbackRoutine,
                                                void *callbackContext, tANI_U8 sessionId);
#endif // WLAN_FEATURE_PACKET_FILTERING

#ifdef WLAN_FEATURE_GTK_OFFLOAD
// GTK Offload Information Callback declaration
typedef void(*GTKOffloadGetInfoCallback)(void *callbackContext, tpSirGtkOffloadGetInfoRspParams pGtkOffloadGetInfoRsp);

/* ---------------------------------------------------------------------------
    \fn pmcSetGTKOffload
    \brief  Set GTK offload feature.
    \param  hHal - The handle returned by macOpen.
    \param  pGtkOffload - Pointer to the GTK offload request.
    \return eHalStatus
            eHAL_STATUS_FAILURE  Cannot set the offload.
            eHAL_STATUS_SUCCESS  Request accepted.
  ---------------------------------------------------------------------------*/
extern eHalStatus pmcSetGTKOffload (tHalHandle hHal, tpSirGtkOffloadParams pGtkOffload, tANI_U8 sessionId);

/* ---------------------------------------------------------------------------
    \fn pmcGetGTKOffload
    \brief  Get GTK offload information.
    \param  hHal - The handle returned by macOpen.
    \param  callbackRoutine - Pointer to the GTK Offload Get Info response callback routine.
    \return eHalStatus
            eHAL_STATUS_FAILURE  Cannot set the offload.
            eHAL_STATUS_SUCCESS  Request accepted.
  ---------------------------------------------------------------------------*/
extern eHalStatus pmcGetGTKOffload(tHalHandle hHal,
                                   GTKOffloadGetInfoCallback callbackRoutine,
                                   void *callbackContext, tANI_U8 sessionId);
#endif // WLAN_FEATURE_GTK_OFFLOAD

/* Power Save Offload Changes */
typedef enum eUapsdStatus
{
    PMC_UAPSD_DISABLED,
    PMC_UAPSD_ENABLED,
    PMC_UAPSD_DISABLE_PENDING,
    PMC_UAPSD_ENABLE_PENDING
}tUapsdStatus;

/* Power save Check Routine */
typedef tANI_BOOLEAN (*PwrSaveCheckRoutine)(void *checkContext,
                                            tANI_U32 sessionId);

/* Power State Change Indication */
typedef void (*PwrSaveStateChangeIndCb)(void *callbackContext,
                                        tANI_U32 sessionId,
                                        tPmcState pmcState);

/* Full Power Req Callback */
typedef void (*FullPowerReqCb)(void *callbackContext,
                               tANI_U32 sessionId,
                               eHalStatus status);

/* Full Power Req Callback */
typedef void (*UapsdStartIndCb)(void *callbackContext,
                                tANI_U32 sessionId,
                                eHalStatus status);

eHalStatus pmcOffloadOpen(tHalHandle hHal);

eHalStatus pmcOffloadStart(tHalHandle hHal);

eHalStatus pmcOffloadStop(tHalHandle hHal);

eHalStatus pmcOffloadClose(tHalHandle hHal);

eHalStatus pmcOffloadCleanup(tHalHandle hHal, tANI_U32 sessionId);

eHalStatus pmcOffloadConfigEnablePowerSave(tHalHandle hHal,
                                        tPmcPowerSavingMode psMode);

eHalStatus pmcOffloadConfigDisablePowerSave(tHalHandle hHal,
                                         tPmcPowerSavingMode psMode);

tPmcState pmcOffloadGetPmcState(tHalHandle hHal, tANI_U32 sessionId);

void pmcOffloadMessageProcessor(tHalHandle hHal, tSirSmeRsp *pMsg);

eHalStatus pmcOffloadRegisterPowerSaveCheck(tHalHandle hHal,
                     tANI_U32 sessionId, PwrSaveCheckRoutine checkRoutine,
                     void *checkContext);

eHalStatus pmcOffloadDeregisterPowerSaveCheck(tHalHandle hHal,
          tANI_U32 sessionId, PwrSaveCheckRoutine checkRoutine);

eHalStatus pmcOffloadRegisterDeviceStateUpdateInd(tHalHandle hHal,
                     tANI_U32 sessionId, PwrSaveStateChangeIndCb stateChangeCb,
                     void *callbackContext);

eHalStatus pmcOffloadDeregisterDeviceStateUpdateInd(tHalHandle hHal,
                   tANI_U32 sessionId, PwrSaveStateChangeIndCb stateChangeCb);

eHalStatus PmcOffloadEnableStaModePowerSave(tHalHandle hHal,
                                            tANI_U32 sessionId);

eHalStatus PmcOffloadDisableStaModePowerSave(tHalHandle hHal,
                                             tANI_U32 sessionId);

eHalStatus pmcOffloadRequestFullPower(tHalHandle hHal, tANI_U32 sessionId,
                             FullPowerReqCb fullpwrReqCb,void *callbackContext,
                             tRequestFullPowerReason fullPowerReason);

eHalStatus pmcOffloadStartUapsd(tHalHandle hHal,  tANI_U32 sessionId,
                                UapsdStartIndCb uapsdStartIndCb,
                                void *callbackContext);

eHalStatus pmcOffloadStopUapsd(tHalHandle hHal,  tANI_U32 sessionId);

#ifdef FEATURE_WLAN_TDLS
eHalStatus pmcOffloadSetTdlsProhibitBmpsStatus(tHalHandle hHal,
                                               tANI_U32 sessionId,
                                               v_BOOL_t val);
#endif

tANI_BOOLEAN pmcOffloadIsPowerSaveEnabled (tHalHandle hHal, tANI_U32 sessionId,
                                           tPmcPowerSavingMode psMode);

eHalStatus PmcOffloadEnableDeferredStaModePowerSave(tHalHandle hHal,
                                            tANI_U32 sessionId,
                                            tANI_BOOLEAN isReassoc);

eHalStatus PmcOffloadDisableDeferredStaModePowerSave(tHalHandle hHal,
                                             tANI_U32 sessionId);
#endif
